Physiological characterization and identification of genes differentially expressed in response to drought induced by PEG 6000 in Populus canadensis leaves.

We report here about the physiological and molecular responses of Populus canadensis (clone Dorskamp) to drought. The stress was applied to young rooted cuttings by PEG 6000 application over 30 days. This stress induces a decrease in predawn leaf water potential. After 10 days of stress, there was a decrease in stomatal conductance and a slight retardation of leaf growth, but the osmotic potential remained constant. Using the differential display technique, we searched for genes differentially expressed in response to drought at this date. Thirty-six differentially expressed leaf cDNAs were detected between stressed and control conditions. Thirty-four cDNAs clones were successfully cloned and 23 were found to share high identity with Arabidopsis thaliana and Populus trichocarpa genes. The transcriptional regulation of 21 genes was examined by reverse RNA dot blot, confirming an increase in expression for 16 of them after 10 days of treatment. Among these 16 genes, most of them are involved in a different cellular metabolic pathway. These differentially expressed genes are also involved and/or regulated by other treatments such as salt, withholding water or auxin application. The maintenance of growth observed during the first 10 days of the stress period could be due to the regulation of these genes and can be a common response between herbaceous plants and trees.

Physiological traits of two Populus x euramericana clones, Luisa Avanzo and Dorskamp, during a water stress and re-watering cycle.

We compared responses to drought and re-watering of greenhouse-grown cuttings of Populus x euramericana (Dode) Guinier clones, Luisa Avanzo and Dorskamp. Total leaf area, leaf number, leaf area increment and stomatal conductance were evaluated periodically during a 29-day drought period and for 16 days after re-watering. Soil water content and predawn leaf water potential (Psi(wp)) were measured on Days 29 and 45. On the same days, relative water content (RWC), specific leaf area (SLA), nitrogen, chlorophyll, soluble sugars, total phenols, flavanols and antioxidant activity were determined for leaves taken from the bottom to the top of each cutting. Leaves of Luisa Avanzo cuttings grew more rapidly than leaves of Dorskamp and exhibited higher SLA, but lower concentrations of nitrogen, chlorophyll and soluble sugars and lower antioxidant activity per unit area. On Day 29, after withholding water, both clones had closed their stomata, reduced rates of leaf growth, and lower Psi(wp) and RWC; however, the clones differed in their responses to soil water depletion. Compared to Dorskamp, Luisa Avanzo closed its stomata earlier and maintained higher Psi(wp), but lower RWC and leaf sugar concentrations. Antioxidant activity of leaf methanolic extracts decreased in response to water stress only in Luisa Avanzo. Leaf physiology and its modulation by water stress were age dependent in Luisa Avanzo.